CN212672886U - Intelligent ball machine mounting bracket - Google Patents

Abstract

The utility model discloses an intelligence ball machine installing support, including coupling assembling and the inside installation arm that is provided with the threading passageway, coupling assembling's bottom and ball machine are connected, the threading passageway is including horizontal threading passageway and the vertical threading passageway that feeds through in proper order, coupling assembling includes the connecting cylinder, external screw thread pipe and bearing, the open end on connecting cylinder top is connected with the casing of ball machine, its blind end is provided with the cooperation through-hole, insert in the vertical threading passageway on the top of external screw thread pipe, and with vertical threading passageway threaded connection, insert in the centre bore of connecting cylinder after its bottom passes the cooperation through-hole, and the bottom evagination of external screw thread pipe becomes spacing flange, the bearing housing is established on the external screw thread pipe, in it, the outer lane respectively with the outer wall of external screw thread pipe and the inner wall interference fit of connecting cylinder. The utility model can fix the mounting arm first, thereby reducing the labor cost for mounting the dome camera; meanwhile, when the dome camera is installed at the later stage, the convenience, the rapidness and the safety of the dome camera are improved.

Description

Intelligent ball machine mounting bracket

Technical Field

The utility model relates to a network monitoring field, concretely relates to intelligence ball machine installing support.

Background

The ball machine is called a ball camera, is a representative of modern television monitoring development, integrates multiple functions of a color integrated camera, a holder, a decoder, a protective cover and the like, is convenient to install, simple to use and powerful in function, and is widely applied to monitoring in an open area. The ball machine comprises a built-in integrated camera, a tripod head structure and a decoder, and a spherical protective cover is adopted by a shell of the ball machine. The ball machine has the characteristics of small volume, attractive appearance, powerful functions, convenience in installation, simplicity in use, easiness in maintenance and the like.

The ball machine is fixed on a wall through a mounting bracket, the mounting bracket mainly comprises a mounting arm, a connecting cylinder, a self-tapping screw and a bolt, wherein a threading channel is arranged in the mounting arm; one end of the connecting cylinder is connected with the shell of the ball machine, the other end of the connecting cylinder is inserted into the threading channel, the connecting cylinder and the mounting arm are fastened and connected through the bolt, and a wire of the ball machine penetrates through a center hole of the connecting cylinder and then is inserted into the threading channel and is electrically connected with the data transmission line through the data connector.

The ball machine is fixed on the mounting arm through a bolt; if the mounting arm is fixed on the wall body firstly, and then the ball machine is fixed on one side of the mounting arm by using the bolts, the ball machine is held by hands, and then the bolts are mounted in the circumferential direction. Because the installation arm is located the wall body, and has a certain height, it is inconvenient to carry out each bolt installation, the screw-down operation of circumference to a part on high altitude, and has great step on empty risk.

Therefore, in order to install the ball machine on the wall body, the ball machine is connected with the installation arm firstly. At this moment, because installation arm one end has hung the ball machine, consequently its focus is partial to the ball machine, leads to one end to hang the installation arm that has the ball machine and the connection between the wall body to need two workman could accomplish, specifically: one worker supports the ball machine to prevent the mounting arm from inclining to one side of the ball machine, and the other worker penetrates the self-tapping screw through the mounting arm and then is connected with the thread, so that the mounting arm is fixed on the wall.

Meanwhile, during later maintenance, if the mounting arm is detached from the wall and the ball machine is taken down, the hole which is originally penetrated out by the self-tapping screw on the wall cannot be used for subsequent mounting of the mounting arm, and the hole needs to be punched again, so that the outer wall surface is damaged, and the strength of the wall is reduced; if the mounting arm is not dismounted, the ball machine is directly dismounted, the ball machine is fastened on the mounting arm through a circle of bolts in the circumferential direction, so that the dismounting difficulty is increased, the bolts in front of the ball machine and the bolts at the back of the ball machine need to be dismounted, and the high-altitude operation is extremely unsafe.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides an intelligence ball machine installing support has solved current ball machine installing support and has need many people just can accomplish installation and the above-mentioned technical problem such as later maintenance difficulty. The utility model discloses an intelligence ball machine installing support has changed the connected mode between ball machine and the installation arm to the messenger when installing the ball machine, not only can carry out the installation of ball machine by a workman, simultaneously can earlier fixed mounting arm, and when later stage installation ball machine, need not circumference construction bolt, improved the convenience of ball machine installation, reduced the cost of labor of its installation.

The utility model adopts the technical scheme as follows:

the utility model provides an intelligence ball machine installing support, includes coupling assembling and the inside installation arm that is provided with the threading passageway, the both ends of installation arm are connected with wall body and coupling assembling respectively, coupling assembling's bottom is connected with the ball machine, the threading passageway includes horizontal threading passageway and the vertical threading passageway that feeds through in proper order, coupling assembling includes connecting cylinder, external screw thread pipe and bearing, the connecting cylinder top is sealed, the bottom is open, its open end is connected with the ball machine casing, its blind end is provided with the cooperation through-hole, the top of external screw thread pipe inserts in the vertical threading passageway to with vertical threading passageway threaded connection, insert in the centre bore of connecting cylinder after passing the cooperation through-hole in its bottom, and the bottom evagination of the external screw thread pipe outer circumferential wall becomes limiting flange, the bearing housing is established on the external screw thread pipe to be located between limiting flange and the blind end of connecting cylinder, the inner ring and the outer ring are respectively in interference fit with the outer wall of the external thread pipe and the inner wall of the connecting cylinder.

Furthermore, the side wall of the external threaded pipe, which is positioned between the mounting arm and the connecting cylinder, is provided with two rotating holes, the axis of each rotating hole is intersected with the axis of the external threaded pipe positively, and the two rotating holes are distributed symmetrically along the axis of the external threaded pipe.

Further, be provided with the cover subassembly on the external screw thread pipe, the cover subassembly includes left semicircle ring and right semicircle ring, left side semicircle ring and right semicircle ring peg graft mutually and piece together and form the ring, the upper end terminal surface and the lower extreme terminal surface of ring contact with installation arm and connecting cylinder respectively, the external screw thread pipe is located between left semicircle ring and the right semicircle ring.

Furthermore, a jack is arranged on the left semicircular ring, an inserting shaft is arranged on the right semicircular ring, and the inserting shaft is inserted into the jack and is tightly matched with the jack.

Furthermore, threaded holes are formed in the back faces of the left semicircular ring and the right semicircular ring, a stud is connected to the threaded holes in a threaded mode, and a straight groove is formed in one end, far away from the axis of the external thread pipe, of the stud.

Due to the adoption of the technical scheme, the beneficial effects of the utility model are that:

1. the utility model relates to an intelligent ball machine mounting bracket, which not only can fix the mounting arm firstly, thereby a worker can mount the ball machine, and the labor cost for mounting the ball machine is reduced; meanwhile, when the dome camera is installed at the later stage, the dome camera can be fixed by directly connecting the threads on the main axis without circumferentially installing bolts, so that the convenience, the rapidness and the safety of mounting the dome camera are improved;

2. the utility model relates to an intelligent ball machine mounting bracket, in the later maintenance, only need the external screw thread pipe of reverse rotation, until the external screw thread pipe withdraws from the vertical threading passageway, then remove the grafting between wire and the data transmission line, can take off the ball machine, maintain or change; compared with the prior art, the ball machine is convenient to disassemble and higher in safety, and the bolts do not need to be disassembled around the ball machine;

3. the utility model relates to an intelligent ball machine mounting bracket, the setting of rotatory hole is convenient for when rotating outer threaded pipe, through inserting the member in rotatory hole, then rotate outer threaded pipe through promoting the member, can reduce intensity of labour, can come outer threaded pipe to screw through the arm of force that the member lengthens again;

4. the utility model relates to an intelligent ball machine mounting bracket, the upper and lower end faces of a ring formed by splicing a left semicircular ring and a right semicircular ring are respectively propped against an arm and a connecting cylinder, so as to cover the gap and separate the gap from the outside, thereby preventing dust, water vapor and the like from entering the inside of the connecting cylinder through the gap and ensuring the lubrication of a bearing;

5. the utility model relates to an intelligence ball machine installing support, because grafting between left semicircle ring and the right semicircle ring is for closely cooperating, in order to improve follow-up maintenance's convenience, consequently be provided with the screw hole, specifically: when the ball machine needs to be disassembled, a screwdriver is firstly matched with the straight-line groove, the stud is taken down from the threaded hole, then the long screw is matched with the threaded hole, and then the long screw is pulled towards the axis far away from the external threaded pipe, so that the left semicircular ring and the right semicircular ring are separated, and then the left semicircular ring and the right semicircular ring are taken down from the external threaded pipe; the externally threaded tube is then rotated until it exits the vertical threading channel.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, for those skilled in the art, other related drawings can be obtained according to the drawings without creative efforts, and the proportional relationship of each component in the drawings in the present specification does not represent the proportional relationship in the actual material selection design, and is only a schematic diagram of the structure or the position, in which:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view at A in FIG. 2;

fig. 4 is an exploded view of the present invention;

fig. 5 is a matching schematic diagram of the left semicircular ring and the right semicircular ring which are spliced.

Reference numerals in the drawings indicate:

1-mounting arm, 2-ball machine, 3-threading channel, 4-connecting cylinder, 5-external threaded pipe, 6-bearing, 7-limiting flange, 8-rotary hole, 9-left semi-circular ring, 10-right semi-circular ring, 11-jack, 12-plug shaft, 13-threaded hole, 14-stud and 15-straight groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, i.e., the described embodiments are only some, but not all embodiments of the invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

The term "connected" as used herein is intended to mean a conventional connection, such as integrally formed, welded, riveted, etc., if not specifically emphasized, and the specific connection is preferably adapted according to conventional technical knowledge in the art. All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The present invention will be described in detail with reference to fig. 1 to 5.

Example 1

As shown in fig. 1-5, the utility model relates to an intelligent ball machine mounting bracket, which comprises a connecting component and a mounting arm 1 with a threading channel 3 arranged inside, wherein both ends of the mounting arm 1 are respectively connected with a wall body and the connecting component, the bottom end of the connecting component is connected with a ball machine 2, the threading channel 3 comprises a transverse threading channel and a vertical threading channel which are sequentially communicated, the connecting component comprises a connecting cylinder 4, an external thread pipe 5 and a bearing 6, the top of the connecting cylinder 4 is closed, the bottom is open, the open end is connected with the casing of the ball machine 2, the closed end is provided with a matching through hole, the top end of the external thread pipe 5 is inserted into the vertical threading channel and is in threaded connection with the vertical threading channel, the bottom end is inserted into the central hole of the connecting cylinder 4 after passing through the matching through hole, and the bottom end of the outer circumferential wall of, the bearing 6 is sleeved on the external threaded pipe 5 and is positioned between the limiting flange 7 and the closed end of the connecting cylinder 4, and the inner ring and the outer ring of the bearing are in interference fit with the outer wall of the external threaded pipe 5 and the inner wall of the connecting cylinder 4 respectively.

When the ball machine is fixed on a carrier such as a wall body or a column by the mounting bracket designed by the utility model, one end of the data transmission line which penetrates out of the wall body is firstly inserted into the threading channel 3, and then the mounting arm 1 is fixed on the carrier by connecting pieces such as self-tapping screws; then, the data transmission line is pulled out from the threading channel 3 through the vertical threading channel and is connected with a lead on the ball machine through a connector lug; the ball machine is then moved up so that the data transmission line, the wire is gathered in the threading passage 3 or the center hole of the male screw tube 5, and the top of the male screw tube 5 fixed to the ball machine 2 is inserted into the vertical threading passage, and then the male screw tube 5 is rotated so that the male screw tube 5 is screwed with the vertical threading passage, thereby fixing the ball machine under the mounting arm 1.

Since the wire on the ball machine is electrically connected to the data transmission line, and in order to prevent the wire from twisting with the data transmission line, the ball machine cannot rotate with the rotation of the male screw pipe 5, that is, when the male screw pipe 5 is rotated, the ball machine is kept stationary, thereby preventing the wire from twisting with the data transmission line, and therefore, a bearing 6 is provided between the male screw pipe 5 and the housing of the ball machine, and the rotational connection between the male screw pipe 5 and the ball machine 2 is achieved by the bearing 6. In order to further ensure the smooth shape of the rotary excavating threaded pipe 5, the limiting flange 7 is only contacted with the bottom of the inner ring of the bearing 6; the closed end of the connecting cylinder 4 has contact only with the top of the outer race of the bearing.

In the utility model, when the ball machine is installed, the mounting arm can be fixed firstly, so that one worker can install the ball machine, and the labor cost for installing the ball machine is reduced; meanwhile, when the ball machine is installed in the later period, bolts do not need to be installed in the circumferential direction, the ball machine can be fixed through threaded connection on one main axis, and convenience, rapidness and safety of installation of the ball machine are improved.

More beneficially, in later maintenance, the ball machine can be removed for maintenance or replacement by rotating the external threaded pipe 5 in the reverse direction only until the external threaded pipe 5 exits from the vertical threading channel, and then removing the plug connection between the wire and the data transmission line; compared with the prior art, the ball machine is convenient to disassemble and higher in safety, and the bolts do not need to be disassembled around the ball machine.

Example 2

The present embodiment is further optimized and explained on the basis of embodiment 1 for the structure of the present invention.

As shown in fig. 1 to 5, in the present invention, a rotation hole 8 is provided on a side wall of the external threaded pipe 5 between the mounting arm 1 and the connecting cylinder 4, an axis of the rotation hole 8 is orthogonal to an axis of the external threaded pipe 5, and the number of the rotation holes 8 is two and is symmetrically distributed along the axis of the external threaded pipe 5.

The arrangement of the rotary hole 8 is convenient for inserting the rod piece into the rotary hole 8 when rotating the external threaded pipe 5, and then rotating the external threaded pipe 5 by pushing the rod piece, so that the labor intensity can be reduced, and the external threaded pipe 5 can be screwed through the force arm extended by the rod piece.

Further, be provided with the cover subassembly on the external screw thread pipe 5, the cover subassembly includes left semicircle ring 9 and right semicircle ring 10, left side semicircle ring 9 and right semicircle ring 10 peg graft each other and piece together and form the ring, the upper end terminal surface and the lower extreme terminal surface of ring contact with installation arm 1 and connecting cylinder 4 respectively, external screw thread pipe 5 is located between left semicircle ring 9 and the right semicircle ring 10.

Since this is achieved by turning the externally threaded tube 5, the externally threaded tube 5 always needs to have a section between the mounting arm 1 and the connecting cylinder 4; however, a gap is formed at a fitting portion between the male threaded pipe 5 and the connecting cylinder 4, and dust, moisture, and the like easily enter the connecting cylinder 4 through the gap. In order to prevent dust, moisture, etc. from entering through this gap, it is therefore preferable to block this gap from the outside by means of a cover assembly: the upper end face and the lower end face of the ring formed by splicing the left semicircular ring 9 and the right semicircular ring 10 are respectively abutted against the arm mounting 1 and the connecting cylinder 4, so that the gap is coated inside and is separated from the outside, dust, water vapor and the like are prevented from entering the connecting cylinder 4 through the gap, and the lubrication of the bearing is ensured. Meanwhile, the upper part and the lower part of the ring formed by splicing the left semicircular ring 9 and the right semicircular ring 10 are in a butt joint state, so after the external threaded pipe 5 is screwed, the connecting cylinder 4 can be prevented from rotating relative to the mounting arm 1 through the friction force between the rings and the connecting cylinder 4; meanwhile, the rotation of the ball machine can be realized through the matching between the connecting cylinder 4 and the bearing 6 according to the actual design requirement, and at the moment, the upper and lower connection of the circular ring is not needed.

The insertion of the left semicircular ring 9 and the right semicircular ring 10 is specifically implemented as follows: the left semicircular ring 9 is provided with an insertion hole 11, the right semicircular ring 10 is provided with an insertion shaft 12, and the insertion shaft 12 is inserted into the insertion hole 11 and is tightly matched with the insertion hole 11.

Further, threaded holes 13 are formed in the back faces of the left semicircular ring 9 and the right semicircular ring 10, a stud 14 is connected to the threaded holes 13 in a threaded manner, and a straight groove 15 is formed in one end, away from the axis of the external threaded pipe 5, of the stud 14.

Because grafting between left semicircle ring 9 and the right semicircle ring 10 is for closely cooperating, in order to improve the convenience of follow-up maintenance, consequently be provided with screw hole 13, specifically: when the ball machine needs to be disassembled, a screwdriver is firstly matched with the straight-line groove 15, the stud 14 is taken down from the threaded hole, then the long screw is matched with the threaded hole, and then the long screw is pulled towards the axis far away from the outer threaded pipe, so that the left semi-circular ring 9 and the right semi-circular ring 10 are separated and then taken down from the outer threaded pipe; the externally threaded tube is then rotated until it exits the vertical threading channel.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can be covered within the protection scope of the present invention without the changes or substitutions conceived by the inventive work within the technical scope disclosed by the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (5)

1. The utility model provides an intelligence ball machine installing support, includes coupling assembling and inside installation arm (1) that is provided with threading passageway (3), the both ends of installation arm (1) are connected with wall body and coupling assembling respectively, coupling assembling's bottom is connected its characterized in that with ball machine (2): the threading channel (3) comprises a transverse threading channel and a vertical threading channel which are communicated in sequence, the connecting component comprises a connecting cylinder (4), an external thread pipe (5) and a bearing (6), the top of the connecting cylinder (4) is closed, the bottom of the connecting cylinder is open, the open end of the ball machine is connected with the shell of the ball machine (2), the closed end of the ball machine is provided with a matching through hole, the top end of the external thread pipe (5) is inserted into the vertical threading channel and is in threaded connection with the vertical threading channel, the bottom end of the connecting cylinder penetrates through the matching through hole and then is inserted into a central hole of the connecting cylinder (4), the bottom end of the outer circumferential wall of the outer threaded pipe (5) protrudes outwards to form a limiting flange (7), the bearing (6) is sleeved on the outer threaded pipe (5), and is positioned between the limiting flange (7) and the closed end of the connecting cylinder (4), the inner ring and the outer ring are respectively in interference fit with the outer wall of the external thread pipe (5) and the inner wall of the connecting cylinder (4).

2. The mounting bracket of an intelligent ball machine according to claim 1, characterized in that: the side wall of the outer threaded pipe (5) between the mounting arm (1) and the connecting cylinder (4) is provided with two rotating holes (8), the axis of each rotating hole (8) is intersected with the axis of the outer threaded pipe (5), and the two rotating holes (8) are symmetrically distributed along the axis of the outer threaded pipe (5).

3. The mounting bracket of an intelligent ball machine according to claim 1, characterized in that: be provided with the cover subassembly on outer screw tube (5), the cover subassembly includes left semicircle ring (9) and right semicircle ring (10), left side semicircle ring (9) and right semicircle ring (10) peg graft mutually and piece together the ring, the upper end terminal surface and the lower extreme terminal surface of ring contact with installation arm (1) and connecting cylinder (4) respectively, outer screw tube (5) are located between left semicircle ring (9) and right semicircle ring (10).

4. The mounting bracket of an intelligent dome camera according to claim 3, wherein: the left semicircular ring (9) is provided with an insertion hole (11), the right semicircular ring (10) is provided with an insertion shaft (12), and the insertion shaft (12) is inserted into the insertion hole (11) and is tightly matched with the insertion hole (11).

5. The mounting bracket of an intelligent dome camera according to claim 4, wherein: threaded holes (13) are formed in the back faces of the left semicircular ring (9) and the right semicircular ring (10) towards each other, a stud (14) is connected in the threaded holes (13) in a threaded mode, and a straight groove (15) is formed in one end, far away from the axis of the external threaded pipe (5), of the stud (14).

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